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Literaturverzeichnis<br />
[60] E. D. Sharp: A Triangular Arrangement of Planar-Array Elements that Reduces the Number<br />
Needed. IEEE Trans. Antennas Propagat. 9 (März 1961) 2, 126–129.<br />
[61] Y. T. Lo, S. W. Lee: Affine Transformation and its Application to Antenna Arrays. IEEE Trans.<br />
Antennas Propagat. 13 (Nov. 1965) 6, 890–896.<br />
[62] S. P. Skobelev: On the Ideal Element Pattern in Planar Phased Array Antennas. In: IEEE<br />
Antennas and Propagation Society International Symposium, Columbus, US-OH, Juni 2003,<br />
444–447.<br />
[63] S. P. Skobelev: On One More Property of the Ideal Array Element Pattern. IEEE Trans.<br />
Antennas Propagat. 57 (März 2009) 3, 631–637.<br />
[64] D. Robertson: Selecting Mixed-Signal Components for Digital Communications Systems -<br />
Part V. Analog Dialogue 31 (1997) 3, 8–11.<br />
[65] H. Unz: Linear Arrays with Arbitrarily Distributed Elements. IEEE Trans. Antennas Propagat.<br />
8 (März 1960) 2, 222–223.<br />
[66] D. King, R. Packard, R. Thomas: Unequally-Spaced, Broad-Band Antenna Arrays. IRE Transactions<br />
on Antennas and Propagation 8 (Juli 1960) 4, 380–384.<br />
[67] B. Kumar, G. Branner: Design of Unequally Spaced Arrays for Performance Improvement.<br />
IEEE Trans. Antennas Propagat. 47 (März 1999) 3, 511–523.<br />
[68] B. Kumar, G. Branner: Generalized Analytical Technique for the Synthesis of Unequally<br />
Spaced Arrays with Linear, Planar, Cylindrical or Spherical Geometry. IEEE Trans. Antennas<br />
Propagat. 53 (Febr. 2005) 2, 621–634.<br />
[69] F. Nosherwani: Investigation of Antenna Arrays with Element Spacing unequal half of the<br />
Wavelength. Master thesis, Technische Universität Hamburg-Harburg, Harburg, Juli 2006.<br />
[70] D. M. Pozar: Microstrip Antennas. Proc. IEEE 80 (Jan. 1992) 1, 79–91.<br />
[71] T. Teshirogi, M. Tanaka, W. Chujo: Wideband Circularly Polarized Array Antenna with Sequential<br />
Rotations and Phase Shift of Elements. In: IEEE Antennas and Propagation Society<br />
International Symposium, Tokyo, Aug. 1985, 117–120.<br />
[72] M. Haneishi: A circularly Polarized SHF Planar Array Composed of Microstrip Pairs Element.<br />
In: Proceedings of Int. Symp. on Ant. and Prop., Tokyo, August 1985, 125–128.<br />
[73] J. Huang: A Technique for an Array to generate Circular Polarization with Linearly Polarized<br />
Elements. IEEE Trans. Antennas Propagat. 34 (Sept. 1986) 9, 1113–1124.<br />
[74] P. S. Hall, J. Huang, E. Rammons, A. Roederer: Gain of Circularly Polarised Arrays Composed<br />
of Linearly Polarised Elements. Electronics Letters 25 (Jan. 1989) 2, 124–125.<br />
[75] M. Thiel, A. Dreher: Sequential Rotation in a Smart Antenna Terminal for Broadband Communication.<br />
In: IEEE Antennas and Propagation Society International Symposium, Monterey,<br />
US-CA, Juni 2004, 145–148.<br />
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